We have developed a new IR chromogenic cross-linker (IRCX) to aid in rapidly distinguishing cross-linked peptides from unmodified species in complex mixtures. By incorporating a phosphate functional group into the cross-linker, one can take advantage of its unique IR absorption properties, affording selective infrared multiphoton dissociation (IRMPD) of the cross-linked peptides. In a mock mixture of unmodified peptides and IRCX-cross-linked peptides (intramolecularly and intermolecularly cross-linked), only the peptides containing the IRCX modification were shown to dissociate upon exposure to 50 ms of 10.6-microm radiation. LC-IRMPD-MS proved to be an effective method to distinguish the cross-linked peptides in a tryptic digest of IRCX-cross-linked ubiquitin. A total of four intermolecular cross-links and two dead-end modifications were identified using IRCX and LC-IRMPD-MS. IRMPD of these cross-linked peptides resulted in secondary dissociation of all primary fragment ions containing the chromophore, producing a series of unmodified b- or y-type ions that allowed the cross-linked peptides to be sequenced without the need for collision-induced dissociation.
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